Jim shows us how to use big data to help solve world hunger problems.
Jim Ethington technologist and entrepreneur with 15 years of experience building data analytics and machine learning products in domains ranging from finance to sports simulation games. For the last 6 years, Jim has been focused on the problem of how we can apply data science to farming. As the VP of Product at The Climate Corporation, he leads product design and development for a suite of products that provide insights and recommendations to farmers that help them to grow crops more efficiently and effectively. He has an A.B. in Computer Science and Economics from Duke University.
This talk was given at a TEDx event using the TED conference format but independently organized by a local community. Learn more at http://ted.com/tedx

published:27 Jul 2015

views:19771

Digital technologies have enormous power to change the way farmers will grow food in the future. In Africa, where farmers struggle in a harsh environment to grow crops with irrigation as efficiently as possible, sensors to measure soil moisture are being used to assist with farm decisions. A simple digital device is helping to grow more food with less water, overcome community conflicts over water, and creating jobs for rural poor. Michael is the Deputy and ScienceDirector of CSIRO Agriculture & Food. He grew up in New Zealand where he studied agricultural science, followed by a PhD at The University of Queensland - UQ focusing on the tropical grain crop, sorghum. Michael’s research background is in crop agronomy and simulation modelling where his work has aimed to analyse and understand broad-acre farming systems to inform better management regimes. He has worked on agricultural systems in the tropics, subtropics and temperate zone on a wide range of crops and pastures.
As part of his current role, Michael is leading an initiative in ‘digital agriculture’ that aims to bring together agricultural researchers and information and communication technology experts in CSIRO to explore new ways in which digital technologies can improve the way research is conducted and results are delivered to end users. This talk was given at a TEDx event using the TED conference format but independently organized by a local community. Learn more at https://www.ted.com/tedx

The agricultural industry is changing fast. New technologies have created opportunities to make farm management simpler and more efficient. The downside is that farmers are overwhelmed by complex information and struggle to make better operational decisions. Watch this video to learn how Accenture Digital Agriculture Service helps to address these issues and helps farmers increase the economic output from their farms. For more information visit: http://bit.ly/digitalagriculture

Digital farming is an essential part of innovation in sustainable agriculture. Bayer #ForwardFarming shows that just as the heart relies on an interconnected web of veins to fuel the body, so too does a farm when it comes to keeping a pulse on the health of the harvest. VisitThe GreenHeartFarm in the Netherlands as Albert Schirring, Global Crop Manager for Vegetables & Potatoes, and Bayer Crop ScienceRepresentative for the IoF2020 project, explains the digital finger prints implemented on the farm.
Read more about the partnership on the Bayer Crop Science blog here:
https://www.cropscience.bayer.com/en/blogs/corporate-blog/2017/albert-schirring-what-does-the-internet-of-farming-look-like-in-practice
Learn more about Bayer ForwardFarming here:
https://www.cropscience.bayer.com/en/crop-science/forwardfarming
Discover the many categories in the IoF2020 project here:
https://iof2020.eu

published:25 Jul 2017

views:3862

Soil maps, GPS guidance, and even drones are becoming critical tools for modern farmers. These methods of precision agriculture can help increase yields and efficiency—and save farmers a surprising sum along the way.
➡ Subscribe: http://bit.ly/NatGeoSubscribe
About National Geographic:
National Geographic is the world's premium destination for science, exploration, and adventure. Through their world-class scientists, photographers, journalists, and filmmakers, Nat Geo gets you closer to the stories that matter and past the edge of what's possible.
Get More National Geographic:
OfficialSite: http://bit.ly/NatGeoOfficialSite
Facebook: http://bit.ly/FBNatGeo
Twitter: http://bit.ly/NatGeoTwitter
Instagram: http://bit.ly/NatGeoInsta
By 2050 we'll need to feed two billion more people. Click here for a special eight-month series exploring how we can do that—without overwhelming the planet:
http://food.nationalgeographic.com
Watch more Food by the Numbers videos:
http://www.nationalgeographic.com/foodbynumbers/
GRAPHIC: Álvaro Valiño, LawsonParker, Matthew Twombly, and Kelsey Nowakowski
SOURCES: USDA Economic Research Service and Kevin Dhuyvetter, Kansas State University
What Happens When Farming Goes High-Tech? | National Geographic
https://youtu.be/tbkTi3zNN9s
National Geographic
https://www.youtube.com/natgeo

Digital8

The Digital8 format is a combination of the older Hi8 tape transport with the DVcodec. Digital8 equipment uses the same videocassettes as analog recording Hi8 equipment, but differs in that the signal is not analog audio/analog video, but is encoded digitally (using the industry-standard DV codec.) Since Digital8 uses the DV codec, it has identical digital audio and digital video specifications.

To facilitate digital recording on existing Hi8 videocassettes the helical scan video head drum spins 2.5× faster. For both NTSC and PAL Digital8 equipment, a standard-length 120-minute NTSC/90-minute PAL Hi8 magnetic tape cassette will store 60 minutes of Digital8 video (Standard Play) or 90 minutes (Long Play). LP is model specific, such as the TRV-30, TRV-40, and others. Digital8 recordings can be made on standard-grade Video8 cassettes, but this practice is discouraged in the Sony user manuals. Hi8 metal-particle cassettes are the recommended type for Digital8 recording, and most tapes currently sold are marked for both Hi8 and Digital8 usage.

National Geographic (magazine)

National Geographic, formerly The National Geographic Magazine, is the official magazine of the National Geographic Society. It has been published continuously since its first issue in 1888, nine months after the Society itself was founded. It primarily contains articles about geography, history, and world culture. The magazine is known for its thick square-bound glossy format with a yellow rectangular border and its extensive use of dramatic photographs.

The magazine is published monthly, and additional map supplements are also included with subscriptions. It is available in a traditional printed edition and through an interactive online edition. On occasion, special editions of the magazine are issued.

As of 2015, the magazine is circulated worldwide in nearly 40 local-language editions and had a global circulation of 6.8 million per month. Its U.S. circulation is around 3.5 million per month.

Hebrew University of Jerusalem

The Hebrew University of Jerusalem (Hebrew:האוניברסיטה העברית בירושלים‎, ha-Universita ha-Ivrit B'irushalayim; Arabic:الجامعة العبرية في القدس‎, al-Ǧāmiʻah al-ʻIbriyyah fil-Quds; abbreviated HUJI) is Israel's second oldest university established in 1918, 30 years before the State of Israel. The Hebrew University has three campuses in Jerusalem and one in Rehovot. The world's largest Jewish studies library is located on its Edmond J. Safra Givat Ram campus.

Padded Room debuted at number 42 on the US Billboard 200 chart and number two on the Top Independent Albums chart, with 13,451 copies sold in the first week of release. Many people in the entertainment industry had high expectations for Padded Room. Upon its release, the album received generally favorable reviews from music critics. The New York Times gave the rap album a favorable review, and IGN gave it 8.2/10. It was widely promoted, but its success was less than moderate.

Jim shows us how to use big data to help solve world hunger problems.
Jim Ethington technologist and entrepreneur with 15 years of experience building data analytics and machine learning products in domains ranging from finance to sports simulation games. For the last 6 years, Jim has been focused on the problem of how we can apply data science to farming. As the VP of Product at The Climate Corporation, he leads product design and development for a suite of products that provide insights and recommendations to farmers that help them to grow crops more efficiently and effectively. He has an A.B. in Computer Science and Economics from Duke University.
This talk was given at a TEDx event using the TED conference format but independently organized by a local community. Learn more at http://ted.com/tedx

Digital technologies have enormous power to change the way farmers will grow food in the future. In Africa, where farmers struggle in a harsh environment to grow crops with irrigation as efficiently as possible, sensors to measure soil moisture are being used to assist with farm decisions. A simple digital device is helping to grow more food with less water, overcome community conflicts over water, and creating jobs for rural poor. Michael is the Deputy and ScienceDirector of CSIRO Agriculture & Food. He grew up in New Zealand where he studied agricultural science, followed by a PhD at The University of Queensland - UQ focusing on the tropical grain crop, sorghum. Michael’s research background is in crop agronomy and simulation modelling where his work has aimed to analyse and understand broad-acre farming systems to inform better management regimes. He has worked on agricultural systems in the tropics, subtropics and temperate zone on a wide range of crops and pastures.
As part of his current role, Michael is leading an initiative in ‘digital agriculture’ that aims to bring together agricultural researchers and information and communication technology experts in CSIRO to explore new ways in which digital technologies can improve the way research is conducted and results are delivered to end users. This talk was given at a TEDx event using the TED conference format but independently organized by a local community. Learn more at https://www.ted.com/tedx

Accenture Digital Agriculture Service

The agricultural industry is changing fast. New technologies have created opportunities to make farm management simpler and more efficient. The downside is that farmers are overwhelmed by complex information and struggle to make better operational decisions. Watch this video to learn how Accenture Digital Agriculture Service helps to address these issues and helps farmers increase the economic output from their farms. For more information visit: http://bit.ly/digitalagriculture

Digital Farming – Understanding IoT in the context of IoF on a Bayer ForwardFarm

Digital Farming – Understanding IoT in the context of IoF on a Bayer ForwardFarm

Digital Farming – Understanding IoT in the context of IoF on a Bayer ForwardFarm

Digital farming is an essential part of innovation in sustainable agriculture. Bayer #ForwardFarming shows that just as the heart relies on an interconnected web of veins to fuel the body, so too does a farm when it comes to keeping a pulse on the health of the harvest. VisitThe GreenHeartFarm in the Netherlands as Albert Schirring, Global Crop Manager for Vegetables & Potatoes, and Bayer Crop ScienceRepresentative for the IoF2020 project, explains the digital finger prints implemented on the farm.
Read more about the partnership on the Bayer Crop Science blog here:
https://www.cropscience.bayer.com/en/blogs/corporate-blog/2017/albert-schirring-what-does-the-internet-of-farming-look-like-in-practice
Learn more about Bayer ForwardFarming here:
https://www.cropscience.bayer.com/en/crop-science/forwardfarming
Discover the many categories in the IoF2020 project here:
https://iof2020.eu

1:45

What Happens When Farming Goes High-Tech? | National Geographic

What Happens When Farming Goes High-Tech? | National Geographic

What Happens When Farming Goes High-Tech? | National Geographic

Soil maps, GPS guidance, and even drones are becoming critical tools for modern farmers. These methods of precision agriculture can help increase yields and efficiency—and save farmers a surprising sum along the way.
➡ Subscribe: http://bit.ly/NatGeoSubscribe
About National Geographic:
National Geographic is the world's premium destination for science, exploration, and adventure. Through their world-class scientists, photographers, journalists, and filmmakers, Nat Geo gets you closer to the stories that matter and past the edge of what's possible.
Get More National Geographic:
OfficialSite: http://bit.ly/NatGeoOfficialSite
Facebook: http://bit.ly/FBNatGeo
Twitter: http://bit.ly/NatGeoTwitter
Instagram: http://bit.ly/NatGeoInsta
By 2050 we'll need to feed two billion more people. Click here for a special eight-month series exploring how we can do that—without overwhelming the planet:
http://food.nationalgeographic.com
Watch more Food by the Numbers videos:
http://www.nationalgeographic.com/foodbynumbers/
GRAPHIC: Álvaro Valiño, LawsonParker, Matthew Twombly, and Kelsey Nowakowski
SOURCES: USDA Economic Research Service and Kevin Dhuyvetter, Kansas State University
What Happens When Farming Goes High-Tech? | National Geographic
https://youtu.be/tbkTi3zNN9s
National Geographic
https://www.youtube.com/natgeo

Modern Technology Agriculture Huge Machines

Digital agriculture strategy

The Victorian Government is working to ensure that our farmers are at the forefront of agriculture’s digital revolution.

4:18

KNOW: The Future of Farming

KNOW: The Future of Farming

KNOW: The Future of Farming

In the first installment of our new essay series, KNOW, we explore of the future of farming in a digital world.
The future of farming is happening now. Big data, machine learning, smart-connected equipment, the Internet-of-Things and autonomous technologies allow us to understand fields and crops at the macro level —and all the way down to a single row in the middle of a massive field.
But we need brilliant minds to develop the apps and algorithms that will understand the data from the autonomous tractors and drones, and then turn it into practical techniques. We need farmers to implement and governments to allow the future of farming.
Learn more about how Kalypso can help you deliver better results from innovation in a digital world at: www.kalypso.com
www.kalypso.com

44:35

WEBINAR: The Digital Agriculture Revolution

WEBINAR: The Digital Agriculture Revolution

WEBINAR: The Digital Agriculture Revolution

Farmers, growers, and agricultural companies are increasingly adopting digital technologies to transform a traditional industry. In the past, farmers and growers made decisions based on their personal experience, combined with interpreting local conditions.
But digital technologies, from the internet of things to blockchain, are rapidly turning the industry into a high-tech sector. Smart, connected devices can now provide the insight to enable farms to improve every aspect of their operations.
In this webinar, leading digital agronomist Reinder Prins, discusses - What is the digital agriculture revolution?
- How digital technologies are transforming the industry – digital technology, including the impact of the internet of things and blockchain.
- What are the unique challenges that the sector faces in adopting digital technology?
- The future of agriculture

Jim shows us how to use big data to help solve world hunger problems.
Jim Ethington technologist and entrepreneur with 15 years of experience building data analytics and machine learning products in domains ranging from finance to sports simulation games. For the last 6 years, Jim has been focused on the problem of how we can apply data science to farming. As the VP of Product at The Climate Corporation, he leads product design and development for a suite of products that provide insights and recommendations to farmers that help them to grow crops more efficiently and effectively. He has an A.B. in Computer Science and Economics from Duke University.
This talk was given at a TEDx event using the TED conference format but independently organized by a local community. Learn more at http://...

Digital technologies have enormous power to change the way farmers will grow food in the future. In Africa, where farmers struggle in a harsh environment to grow crops with irrigation as efficiently as possible, sensors to measure soil moisture are being used to assist with farm decisions. A simple digital device is helping to grow more food with less water, overcome community conflicts over water, and creating jobs for rural poor. Michael is the Deputy and ScienceDirector of CSIRO Agriculture & Food. He grew up in New Zealand where he studied agricultural science, followed by a PhD at The University of Queensland - UQ focusing on the tropical grain crop, sorghum. Michael’s research background is in crop agronomy and simulation modelling where his work has aimed to analyse and understand...

Accenture Digital Agriculture Service

The agricultural industry is changing fast. New technologies have created opportunities to make farm management simpler and more efficient. The downside is that farmers are overwhelmed by complex information and struggle to make better operational decisions. Watch this video to learn how Accenture Digital Agriculture Service helps to address these issues and helps farmers increase the economic output from their farms. For more information visit: http://bit.ly/digitalagriculture

Digital Farming – Understanding IoT in the context of IoF on a Bayer ForwardFarm

Digital farming is an essential part of innovation in sustainable agriculture. Bayer #ForwardFarming shows that just as the heart relies on an interconnected web of veins to fuel the body, so too does a farm when it comes to keeping a pulse on the health of the harvest. VisitThe GreenHeartFarm in the Netherlands as Albert Schirring, Global Crop Manager for Vegetables & Potatoes, and Bayer Crop ScienceRepresentative for the IoF2020 project, explains the digital finger prints implemented on the farm.
Read more about the partnership on the Bayer Crop Science blog here:
https://www.cropscience.bayer.com/en/blogs/corporate-blog/2017/albert-schirring-what-does-the-internet-of-farming-look-like-in-practice
Learn more about Bayer ForwardFarming here:
https://www.cropscience.bayer.com/en/crop...

published: 25 Jul 2017

What Happens When Farming Goes High-Tech? | National Geographic

Soil maps, GPS guidance, and even drones are becoming critical tools for modern farmers. These methods of precision agriculture can help increase yields and efficiency—and save farmers a surprising sum along the way.
➡ Subscribe: http://bit.ly/NatGeoSubscribe
About National Geographic:
National Geographic is the world's premium destination for science, exploration, and adventure. Through their world-class scientists, photographers, journalists, and filmmakers, Nat Geo gets you closer to the stories that matter and past the edge of what's possible.
Get More National Geographic:
OfficialSite: http://bit.ly/NatGeoOfficialSite
Facebook: http://bit.ly/FBNatGeo
Twitter: http://bit.ly/NatGeoTwitter
Instagram: http://bit.ly/NatGeoInsta
By 2050 we'll need to feed two billion more people. Click...

Modern Technology Agriculture Huge Machines

Digital agriculture strategy

The Victorian Government is working to ensure that our farmers are at the forefront of agriculture’s digital revolution.

published: 10 Oct 2018

KNOW: The Future of Farming

In the first installment of our new essay series, KNOW, we explore of the future of farming in a digital world.
The future of farming is happening now. Big data, machine learning, smart-connected equipment, the Internet-of-Things and autonomous technologies allow us to understand fields and crops at the macro level —and all the way down to a single row in the middle of a massive field.
But we need brilliant minds to develop the apps and algorithms that will understand the data from the autonomous tractors and drones, and then turn it into practical techniques. We need farmers to implement and governments to allow the future of farming.
Learn more about how Kalypso can help you deliver better results from innovation in a digital world at: www.kalypso.com
www.kalypso.com

published: 05 Apr 2017

WEBINAR: The Digital Agriculture Revolution

Farmers, growers, and agricultural companies are increasingly adopting digital technologies to transform a traditional industry. In the past, farmers and growers made decisions based on their personal experience, combined with interpreting local conditions.
But digital technologies, from the internet of things to blockchain, are rapidly turning the industry into a high-tech sector. Smart, connected devices can now provide the insight to enable farms to improve every aspect of their operations.
In this webinar, leading digital agronomist Reinder Prins, discusses - What is the digital agriculture revolution?
- How digital technologies are transforming the industry – digital technology, including the impact of the internet of things and blockchain.
- What are the unique challenges that the s...

Jim shows us how to use big data to help solve world hunger problems.
Jim Ethington technologist and entrepreneur with 15 years of experience building data ana...

Jim shows us how to use big data to help solve world hunger problems.
Jim Ethington technologist and entrepreneur with 15 years of experience building data analytics and machine learning products in domains ranging from finance to sports simulation games. For the last 6 years, Jim has been focused on the problem of how we can apply data science to farming. As the VP of Product at The Climate Corporation, he leads product design and development for a suite of products that provide insights and recommendations to farmers that help them to grow crops more efficiently and effectively. He has an A.B. in Computer Science and Economics from Duke University.
This talk was given at a TEDx event using the TED conference format but independently organized by a local community. Learn more at http://ted.com/tedx

Jim shows us how to use big data to help solve world hunger problems.
Jim Ethington technologist and entrepreneur with 15 years of experience building data analytics and machine learning products in domains ranging from finance to sports simulation games. For the last 6 years, Jim has been focused on the problem of how we can apply data science to farming. As the VP of Product at The Climate Corporation, he leads product design and development for a suite of products that provide insights and recommendations to farmers that help them to grow crops more efficiently and effectively. He has an A.B. in Computer Science and Economics from Duke University.
This talk was given at a TEDx event using the TED conference format but independently organized by a local community. Learn more at http://ted.com/tedx

Digital technologies have enormous power to change the way farmers will grow food in the future. In Africa, where farmers struggle in a harsh environment to gro...

Digital technologies have enormous power to change the way farmers will grow food in the future. In Africa, where farmers struggle in a harsh environment to grow crops with irrigation as efficiently as possible, sensors to measure soil moisture are being used to assist with farm decisions. A simple digital device is helping to grow more food with less water, overcome community conflicts over water, and creating jobs for rural poor. Michael is the Deputy and ScienceDirector of CSIRO Agriculture & Food. He grew up in New Zealand where he studied agricultural science, followed by a PhD at The University of Queensland - UQ focusing on the tropical grain crop, sorghum. Michael’s research background is in crop agronomy and simulation modelling where his work has aimed to analyse and understand broad-acre farming systems to inform better management regimes. He has worked on agricultural systems in the tropics, subtropics and temperate zone on a wide range of crops and pastures.
As part of his current role, Michael is leading an initiative in ‘digital agriculture’ that aims to bring together agricultural researchers and information and communication technology experts in CSIRO to explore new ways in which digital technologies can improve the way research is conducted and results are delivered to end users. This talk was given at a TEDx event using the TED conference format but independently organized by a local community. Learn more at https://www.ted.com/tedx

Digital technologies have enormous power to change the way farmers will grow food in the future. In Africa, where farmers struggle in a harsh environment to grow crops with irrigation as efficiently as possible, sensors to measure soil moisture are being used to assist with farm decisions. A simple digital device is helping to grow more food with less water, overcome community conflicts over water, and creating jobs for rural poor. Michael is the Deputy and ScienceDirector of CSIRO Agriculture & Food. He grew up in New Zealand where he studied agricultural science, followed by a PhD at The University of Queensland - UQ focusing on the tropical grain crop, sorghum. Michael’s research background is in crop agronomy and simulation modelling where his work has aimed to analyse and understand broad-acre farming systems to inform better management regimes. He has worked on agricultural systems in the tropics, subtropics and temperate zone on a wide range of crops and pastures.
As part of his current role, Michael is leading an initiative in ‘digital agriculture’ that aims to bring together agricultural researchers and information and communication technology experts in CSIRO to explore new ways in which digital technologies can improve the way research is conducted and results are delivered to end users. This talk was given at a TEDx event using the TED conference format but independently organized by a local community. Learn more at https://www.ted.com/tedx

Accenture Digital Agriculture Service

The agricultural industry is changing fast. New technologies have created opportunities to make farm management simpler and more efficient. The downside is that...

The agricultural industry is changing fast. New technologies have created opportunities to make farm management simpler and more efficient. The downside is that farmers are overwhelmed by complex information and struggle to make better operational decisions. Watch this video to learn how Accenture Digital Agriculture Service helps to address these issues and helps farmers increase the economic output from their farms. For more information visit: http://bit.ly/digitalagriculture

The agricultural industry is changing fast. New technologies have created opportunities to make farm management simpler and more efficient. The downside is that farmers are overwhelmed by complex information and struggle to make better operational decisions. Watch this video to learn how Accenture Digital Agriculture Service helps to address these issues and helps farmers increase the economic output from their farms. For more information visit: http://bit.ly/digitalagriculture

Digital Farming – Understanding IoT in the context of IoF on a Bayer ForwardFarm

Digital farming is an essential part of innovation in sustainable agriculture. Bayer #ForwardFarming shows that just as the heart relies on an interconnected we...

Digital farming is an essential part of innovation in sustainable agriculture. Bayer #ForwardFarming shows that just as the heart relies on an interconnected web of veins to fuel the body, so too does a farm when it comes to keeping a pulse on the health of the harvest. VisitThe GreenHeartFarm in the Netherlands as Albert Schirring, Global Crop Manager for Vegetables & Potatoes, and Bayer Crop ScienceRepresentative for the IoF2020 project, explains the digital finger prints implemented on the farm.
Read more about the partnership on the Bayer Crop Science blog here:
https://www.cropscience.bayer.com/en/blogs/corporate-blog/2017/albert-schirring-what-does-the-internet-of-farming-look-like-in-practice
Learn more about Bayer ForwardFarming here:
https://www.cropscience.bayer.com/en/crop-science/forwardfarming
Discover the many categories in the IoF2020 project here:
https://iof2020.eu

Digital farming is an essential part of innovation in sustainable agriculture. Bayer #ForwardFarming shows that just as the heart relies on an interconnected web of veins to fuel the body, so too does a farm when it comes to keeping a pulse on the health of the harvest. VisitThe GreenHeartFarm in the Netherlands as Albert Schirring, Global Crop Manager for Vegetables & Potatoes, and Bayer Crop ScienceRepresentative for the IoF2020 project, explains the digital finger prints implemented on the farm.
Read more about the partnership on the Bayer Crop Science blog here:
https://www.cropscience.bayer.com/en/blogs/corporate-blog/2017/albert-schirring-what-does-the-internet-of-farming-look-like-in-practice
Learn more about Bayer ForwardFarming here:
https://www.cropscience.bayer.com/en/crop-science/forwardfarming
Discover the many categories in the IoF2020 project here:
https://iof2020.eu

What Happens When Farming Goes High-Tech? | National Geographic

Soil maps, GPS guidance, and even drones are becoming critical tools for modern farmers. These methods of precision agriculture can help increase yields and eff...

Soil maps, GPS guidance, and even drones are becoming critical tools for modern farmers. These methods of precision agriculture can help increase yields and efficiency—and save farmers a surprising sum along the way.
➡ Subscribe: http://bit.ly/NatGeoSubscribe
About National Geographic:
National Geographic is the world's premium destination for science, exploration, and adventure. Through their world-class scientists, photographers, journalists, and filmmakers, Nat Geo gets you closer to the stories that matter and past the edge of what's possible.
Get More National Geographic:
OfficialSite: http://bit.ly/NatGeoOfficialSite
Facebook: http://bit.ly/FBNatGeo
Twitter: http://bit.ly/NatGeoTwitter
Instagram: http://bit.ly/NatGeoInsta
By 2050 we'll need to feed two billion more people. Click here for a special eight-month series exploring how we can do that—without overwhelming the planet:
http://food.nationalgeographic.com
Watch more Food by the Numbers videos:
http://www.nationalgeographic.com/foodbynumbers/
GRAPHIC: Álvaro Valiño, LawsonParker, Matthew Twombly, and Kelsey Nowakowski
SOURCES: USDA Economic Research Service and Kevin Dhuyvetter, Kansas State University
What Happens When Farming Goes High-Tech? | National Geographic
https://youtu.be/tbkTi3zNN9s
National Geographic
https://www.youtube.com/natgeo

Soil maps, GPS guidance, and even drones are becoming critical tools for modern farmers. These methods of precision agriculture can help increase yields and efficiency—and save farmers a surprising sum along the way.
➡ Subscribe: http://bit.ly/NatGeoSubscribe
About National Geographic:
National Geographic is the world's premium destination for science, exploration, and adventure. Through their world-class scientists, photographers, journalists, and filmmakers, Nat Geo gets you closer to the stories that matter and past the edge of what's possible.
Get More National Geographic:
OfficialSite: http://bit.ly/NatGeoOfficialSite
Facebook: http://bit.ly/FBNatGeo
Twitter: http://bit.ly/NatGeoTwitter
Instagram: http://bit.ly/NatGeoInsta
By 2050 we'll need to feed two billion more people. Click here for a special eight-month series exploring how we can do that—without overwhelming the planet:
http://food.nationalgeographic.com
Watch more Food by the Numbers videos:
http://www.nationalgeographic.com/foodbynumbers/
GRAPHIC: Álvaro Valiño, LawsonParker, Matthew Twombly, and Kelsey Nowakowski
SOURCES: USDA Economic Research Service and Kevin Dhuyvetter, Kansas State University
What Happens When Farming Goes High-Tech? | National Geographic
https://youtu.be/tbkTi3zNN9s
National Geographic
https://www.youtube.com/natgeo

KNOW: The Future of Farming

In the first installment of our new essay series, KNOW, we explore of the future of farming in a digital world.
The future of farming is happening now. Big dat...

In the first installment of our new essay series, KNOW, we explore of the future of farming in a digital world.
The future of farming is happening now. Big data, machine learning, smart-connected equipment, the Internet-of-Things and autonomous technologies allow us to understand fields and crops at the macro level —and all the way down to a single row in the middle of a massive field.
But we need brilliant minds to develop the apps and algorithms that will understand the data from the autonomous tractors and drones, and then turn it into practical techniques. We need farmers to implement and governments to allow the future of farming.
Learn more about how Kalypso can help you deliver better results from innovation in a digital world at: www.kalypso.com
www.kalypso.com

In the first installment of our new essay series, KNOW, we explore of the future of farming in a digital world.
The future of farming is happening now. Big data, machine learning, smart-connected equipment, the Internet-of-Things and autonomous technologies allow us to understand fields and crops at the macro level —and all the way down to a single row in the middle of a massive field.
But we need brilliant minds to develop the apps and algorithms that will understand the data from the autonomous tractors and drones, and then turn it into practical techniques. We need farmers to implement and governments to allow the future of farming.
Learn more about how Kalypso can help you deliver better results from innovation in a digital world at: www.kalypso.com
www.kalypso.com

WEBINAR: The Digital Agriculture Revolution

Farmers, growers, and agricultural companies are increasingly adopting digital technologies to transform a traditional industry. In the past, farmers and grower...

Farmers, growers, and agricultural companies are increasingly adopting digital technologies to transform a traditional industry. In the past, farmers and growers made decisions based on their personal experience, combined with interpreting local conditions.
But digital technologies, from the internet of things to blockchain, are rapidly turning the industry into a high-tech sector. Smart, connected devices can now provide the insight to enable farms to improve every aspect of their operations.
In this webinar, leading digital agronomist Reinder Prins, discusses - What is the digital agriculture revolution?
- How digital technologies are transforming the industry – digital technology, including the impact of the internet of things and blockchain.
- What are the unique challenges that the sector faces in adopting digital technology?
- The future of agriculture

Farmers, growers, and agricultural companies are increasingly adopting digital technologies to transform a traditional industry. In the past, farmers and growers made decisions based on their personal experience, combined with interpreting local conditions.
But digital technologies, from the internet of things to blockchain, are rapidly turning the industry into a high-tech sector. Smart, connected devices can now provide the insight to enable farms to improve every aspect of their operations.
In this webinar, leading digital agronomist Reinder Prins, discusses - What is the digital agriculture revolution?
- How digital technologies are transforming the industry – digital technology, including the impact of the internet of things and blockchain.
- What are the unique challenges that the sector faces in adopting digital technology?
- The future of agriculture

Jim shows us how to use big data to help solve world hunger problems.
Jim Ethington technologist and entrepreneur with 15 years of experience building data analytics and machine learning products in domains ranging from finance to sports simulation games. For the last 6 years, Jim has been focused on the problem of how we can apply data science to farming. As the VP of Product at The Climate Corporation, he leads product design and development for a suite of products that provide insights and recommendations to farmers that help them to grow crops more efficiently and effectively. He has an A.B. in Computer Science and Economics from Duke University.
This talk was given at a TEDx event using the TED conference format but independently organized by a local community. Learn more at http://ted.com/tedx

Digital technologies have enormous power to change the way farmers will grow food in the future. In Africa, where farmers struggle in a harsh environment to grow crops with irrigation as efficiently as possible, sensors to measure soil moisture are being used to assist with farm decisions. A simple digital device is helping to grow more food with less water, overcome community conflicts over water, and creating jobs for rural poor. Michael is the Deputy and ScienceDirector of CSIRO Agriculture & Food. He grew up in New Zealand where he studied agricultural science, followed by a PhD at The University of Queensland - UQ focusing on the tropical grain crop, sorghum. Michael’s research background is in crop agronomy and simulation modelling where his work has aimed to analyse and understand broad-acre farming systems to inform better management regimes. He has worked on agricultural systems in the tropics, subtropics and temperate zone on a wide range of crops and pastures.
As part of his current role, Michael is leading an initiative in ‘digital agriculture’ that aims to bring together agricultural researchers and information and communication technology experts in CSIRO to explore new ways in which digital technologies can improve the way research is conducted and results are delivered to end users. This talk was given at a TEDx event using the TED conference format but independently organized by a local community. Learn more at https://www.ted.com/tedx

Accenture Digital Agriculture Service

The agricultural industry is changing fast. New technologies have created opportunities to make farm management simpler and more efficient. The downside is that farmers are overwhelmed by complex information and struggle to make better operational decisions. Watch this video to learn how Accenture Digital Agriculture Service helps to address these issues and helps farmers increase the economic output from their farms. For more information visit: http://bit.ly/digitalagriculture

Digital Farming – Understanding IoT in the context of IoF on a Bayer ForwardFarm

Digital farming is an essential part of innovation in sustainable agriculture. Bayer #ForwardFarming shows that just as the heart relies on an interconnected web of veins to fuel the body, so too does a farm when it comes to keeping a pulse on the health of the harvest. VisitThe GreenHeartFarm in the Netherlands as Albert Schirring, Global Crop Manager for Vegetables & Potatoes, and Bayer Crop ScienceRepresentative for the IoF2020 project, explains the digital finger prints implemented on the farm.
Read more about the partnership on the Bayer Crop Science blog here:
https://www.cropscience.bayer.com/en/blogs/corporate-blog/2017/albert-schirring-what-does-the-internet-of-farming-look-like-in-practice
Learn more about Bayer ForwardFarming here:
https://www.cropscience.bayer.com/en/crop-science/forwardfarming
Discover the many categories in the IoF2020 project here:
https://iof2020.eu

What Happens When Farming Goes High-Tech? | National Geographic

Soil maps, GPS guidance, and even drones are becoming critical tools for modern farmers. These methods of precision agriculture can help increase yields and efficiency—and save farmers a surprising sum along the way.
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What Happens When Farming Goes High-Tech? | National Geographic
https://youtu.be/tbkTi3zNN9s
National Geographic
https://www.youtube.com/natgeo

KNOW: The Future of Farming

In the first installment of our new essay series, KNOW, we explore of the future of farming in a digital world.
The future of farming is happening now. Big data, machine learning, smart-connected equipment, the Internet-of-Things and autonomous technologies allow us to understand fields and crops at the macro level —and all the way down to a single row in the middle of a massive field.
But we need brilliant minds to develop the apps and algorithms that will understand the data from the autonomous tractors and drones, and then turn it into practical techniques. We need farmers to implement and governments to allow the future of farming.
Learn more about how Kalypso can help you deliver better results from innovation in a digital world at: www.kalypso.com
www.kalypso.com

WEBINAR: The Digital Agriculture Revolution

Farmers, growers, and agricultural companies are increasingly adopting digital technologies to transform a traditional industry. In the past, farmers and growers made decisions based on their personal experience, combined with interpreting local conditions.
But digital technologies, from the internet of things to blockchain, are rapidly turning the industry into a high-tech sector. Smart, connected devices can now provide the insight to enable farms to improve every aspect of their operations.
In this webinar, leading digital agronomist Reinder Prins, discusses - What is the digital agriculture revolution?
- How digital technologies are transforming the industry – digital technology, including the impact of the internet of things and blockchain.
- What are the unique challenges that the sector faces in adopting digital technology?
- The future of agriculture

Digital8

The Digital8 format is a combination of the older Hi8 tape transport with the DVcodec. Digital8 equipment uses the same videocassettes as analog recording Hi8 equipment, but differs in that the signal is not analog audio/analog video, but is encoded digitally (using the industry-standard DV codec.) Since Digital8 uses the DV codec, it has identical digital audio and digital video specifications.

To facilitate digital recording on existing Hi8 videocassettes the helical scan video head drum spins 2.5× faster. For both NTSC and PAL Digital8 equipment, a standard-length 120-minute NTSC/90-minute PAL Hi8 magnetic tape cassette will store 60 minutes of Digital8 video (Standard Play) or 90 minutes (Long Play). LP is model specific, such as the TRV-30, TRV-40, and others. Digital8 recordings can be made on standard-grade Video8 cassettes, but this practice is discouraged in the Sony user manuals. Hi8 metal-particle cassettes are the recommended type for Digital8 recording, and most tapes currently sold are marked for both Hi8 and Digital8 usage.

Among the early use cases proving the potential of blockchain technology in business is the supply chain of the agricultural industry. Unlike financial blockchain, where the distributed ledger technology records financial transactions, the agricultural sector is also dealing with the transport, shipping and storage of physical commodities....

Among the early use cases proving the potential of blockchain technology in business is the supply chain of the agricultural industry. Unlike financial blockchain, where the distributed ledger technology records financial transactions, the agricultural sector is also dealing with the transport, shipping and storage of physical commodities....

“If you restrict money in circulation, cut government expenditure, are not manufacturing and not providing industrial infrastructure to support industry and agriculture, you certainly will have a situation where every government achieves a single digit inflation within its ......

Blood, who grew up on a farm, said she introduced the measure because agriculture is Nebraska’s largest industry and needs to be protected for the good of the whole state. SIGN UP. DigitalAccessFor Only $0.99 ... SUBSCRIBE NOW ... ....

More powerful global North governments do not even honor the spirit of their own free trade agreements, as they frequently favor their own industries, especially their agricultural, pharmaceutical and digital technology industries....

BERLIN, Jan ... According to OAOEV chairman Wolfgang Buechele, digitization would be a good example for such a possible closer cooperation ... In addition to digitization, the agricultural and food sector were also a "huge, common field of work," according to the position paper ... ....

High-tech and digital industries, together with agriculture, tourism and culture, green industries and modern services, have become major industries, which contribute to high-quality growth in the region ... Small- and micro-sized companies, agriculture, anti-poverty projects, private businesses and startup entrepreneurs benefited from the loans....

Trade Representative, which leads the American side of the talks, said negotiators focused on China's pledge to buy a "substantial amount" of agricultural, energy, manufactured goods and other products and services....